WarpDrive is a lightweight data library for web apps — universal, typed, reactive, and ready to scale.

WarpDrive + Ember.js Client App for Bluesky

Einstein field equation solutions for exotic spacetime geometries. Mathematical analysis of stress-energy tensors, curvature relations, and metric constraints in general relativity.

Associated repository for the "Warp Drive, Wormholes, and NASA: The REAL Science of FTL Travel" 15 minute discourse podcast on YouTube!

Spacetime curvature analysis and diagnostic tools for metric calculations. Studies Riemann tensor components, scalar curvature, and geometric invariants in numerical relativity applications.

Quantum field theory analysis in curved spacetime geometries. Studies vacuum fluctuations, energy conditions, and field behavior in exotic spacetime configurations for theoretical physics research.

Energy condition analysis and exotic matter requirements for curved spacetime. Studies null, weak, and strong energy conditions in general relativity and quantum field theory.

Specification of coordinate system (e.g. $(t,r,\theta,\phi)$) and symmetry assumptions (axial symmetry, compact radial support) for warp-bubble metric ansatz.

Loop Quantum Gravity midisuperspace quantization for warp drive spacetimes with constraint implementation, coherent states, lattice refinement, exotic matter quantization, and GPU acceleration

Generates finite-difference spatial‐derivative stencils and Taylor-series error-order expansions from the closed-form warp-bubble expressions in final_expressions.tex, and outputs a ready-to-compile LaTeX file discretization.tex

Generate synthetic observational datasets from quantum-geometry signatures for LIGO, EHT, and gravitational wave detectors with realistic noise models and instrument specifications

Warp signature detection workflow transforming curvature analysis into quantum-geometry signatures, synthetic detector data, and sensitivity comparisons for observational validation

Warp bubble metric optimization framework for Van den Broeck-Natário geometries. Includes field control methods, energy requirement analysis, and geometric stability studies for spacetime metric configurations.

Digital-twin simulation suite for warp bubble spacecraft development with adaptive fidelity, Monte Carlo reliability analysis, and software validation for minimum viable product development

Generate LaTeX time‐integration (RK4) update formulas for warp-bubble evolution variables by consuming finite‐difference stencil `.tex` files from the warp-discretization repo.

Spacetime metric formulations for exotic geometries. Mathematical framework for metric ansätze, coordinate systems, and geometric properties in general relativity research.

Automates fetching and combining warp-bubble metric, curvature, and stress–energy LaTeX fragments into a single, standalone final_expressions.tex.

Multi-scale parameter sensitivity analysis for spacetime metrics. Studies parameter dependencies, stability regions, and sensitivity coefficients in relativistic field configurations.

Compute the total negative‐energy integral of a warp‐bubble exotic‐matter density profile and derive analytic parameter constraints for the bubble radius $R$, profile thickness $\sigma$, and amplitude $A$.

Numerical convergence studies for spacetime metric calculations. Analysis of discretization errors, mesh refinement, and computational stability in relativity simulations.